/external/skia/gm/ |
degeneratesegments.cpp | 117 SkPoint endPt = startPt + SkPoint::Make(40*SK_Scalar1, 0); 118 path.lineTo(endPt); 119 return endPt; 124 SkPoint endPt = moveToPt + SkPoint::Make(40*SK_Scalar1, 0); 126 path.lineTo(endPt); 127 return endPt; 132 SkPoint endPt = moveToPt + SkPoint::Make(40*SK_Scalar1, 0); 134 path.lineTo(endPt); 136 return endPt; 141 SkPoint endPt = startPt + SkPoint::Make(40*SK_Scalar1, 0) [all...] |
/external/skqp/gm/ |
degeneratesegments.cpp | 117 SkPoint endPt = startPt + SkPoint::Make(40*SK_Scalar1, 0); 118 path.lineTo(endPt); 119 return endPt; 124 SkPoint endPt = moveToPt + SkPoint::Make(40*SK_Scalar1, 0); 126 path.lineTo(endPt); 127 return endPt; 132 SkPoint endPt = moveToPt + SkPoint::Make(40*SK_Scalar1, 0); 134 path.lineTo(endPt); 136 return endPt; 141 SkPoint endPt = startPt + SkPoint::Make(40*SK_Scalar1, 0) [all...] |
/external/skia/src/pathops/ |
SkPathOpsTCurve.h | 37 virtual void otherPts(int oddMan, const SkDPoint* endPt[2]) const = 0;
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SkPathOpsQuad.cpp | 50 const SkDPoint* endPt[2]; 51 this->otherPts(oddMan, endPt); 52 double origX = endPt[0]->fX; 53 double origY = endPt[0]->fY; 54 double adj = endPt[1]->fX - origX; 55 double opp = endPt[1]->fY - origY; 102 void SkDQuad::otherPts(int oddMan, const SkDPoint* endPt[2]) const { 106 endPt[opp - 1] = &fPts[end];
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SkPathOpsConic.h | 93 void otherPts(int oddMan, const SkDPoint* endPt[2]) const { 94 fPts.otherPts(oddMan, endPt); 179 void otherPts(int oddMan, const SkDPoint* endPt[2]) const override { 180 fConic.otherPts(oddMan, endPt);
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SkPathOpsQuad.h | 88 void otherPts(int oddMan, const SkDPoint* endPt[2]) const; 170 void otherPts(int oddMan, const SkDPoint* endPt[2]) const override { 171 fQuad.otherPts(oddMan, endPt);
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SkPathOpsCubic.cpp | 154 const SkDPoint* endPt[2]; 155 endPt[0] = &fPts[end1]; 159 endPt[1] = &fPts[end2]; 160 double origX = endPt[0]->fX; 161 double origY = endPt[0]->fY; 162 double adj = endPt[1]->fX - origX; 163 double opp = endPt[1]->fY - origY; 190 endPt[0] = endPt[1];
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SkPathOpsCubic.h | 226 void otherPts(int oddMan, const SkDPoint* endPt[2]) const override { 227 fCubic.otherPts(oddMan, endPt);
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SkOpAngle.cpp | 678 const SkDPoint* endPt = &rayEnd[0]; 680 SkDVector vLeft = *endPt - start; [all...] |
/external/skqp/src/pathops/ |
SkPathOpsTCurve.h | 37 virtual void otherPts(int oddMan, const SkDPoint* endPt[2]) const = 0;
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SkPathOpsQuad.cpp | 50 const SkDPoint* endPt[2]; 51 this->otherPts(oddMan, endPt); 52 double origX = endPt[0]->fX; 53 double origY = endPt[0]->fY; 54 double adj = endPt[1]->fX - origX; 55 double opp = endPt[1]->fY - origY; 102 void SkDQuad::otherPts(int oddMan, const SkDPoint* endPt[2]) const { 106 endPt[opp - 1] = &fPts[end];
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SkPathOpsConic.h | 93 void otherPts(int oddMan, const SkDPoint* endPt[2]) const { 94 fPts.otherPts(oddMan, endPt); 179 void otherPts(int oddMan, const SkDPoint* endPt[2]) const override { 180 fConic.otherPts(oddMan, endPt);
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SkPathOpsQuad.h | 88 void otherPts(int oddMan, const SkDPoint* endPt[2]) const; 170 void otherPts(int oddMan, const SkDPoint* endPt[2]) const override { 171 fQuad.otherPts(oddMan, endPt);
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SkPathOpsCubic.cpp | 154 const SkDPoint* endPt[2]; 155 endPt[0] = &fPts[end1]; 159 endPt[1] = &fPts[end2]; 160 double origX = endPt[0]->fX; 161 double origY = endPt[0]->fY; 162 double adj = endPt[1]->fX - origX; 163 double opp = endPt[1]->fY - origY; 190 endPt[0] = endPt[1];
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SkPathOpsCubic.h | 226 void otherPts(int oddMan, const SkDPoint* endPt[2]) const override { 227 fCubic.otherPts(oddMan, endPt);
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SkOpAngle.cpp | 678 const SkDPoint* endPt = &rayEnd[0]; 680 SkDVector vLeft = *endPt - start; [all...] |
/external/fonttools/Lib/fontTools/pens/ |
ttGlyphPen.py | 79 endPt = len(self.points) - 1 82 if endPt == 0 or (self.endPts and endPt == self.endPts[-1] + 1): 90 if self.points[startPt] == self.points[endPt]: 92 endPt -= 1 94 self.endPts.append(endPt)
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/external/skia/src/gpu/ops/ |
GrAAConvexPathRenderer.cpp | 53 const SkPoint& endPt() const { 74 p0 = segments[0].endPt(); 80 pj = segments[1].endPt() - p0; 83 pj = segments[i + 1].endPt() - p0; 98 const SkPoint& pt = segments[i].endPt(); 141 const SkPoint* prevPt = &sega.endPt(); 387 SkPoint p0 = sega.endPt(); 407 SkPoint v1Pos = sega.endPt(); 442 SkPoint qpts[] = {sega.endPt(), segb.fPts[0], segb.fPts[1]};
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/external/skqp/src/gpu/ops/ |
GrAAConvexPathRenderer.cpp | 54 const SkPoint& endPt() const { 75 p0 = segments[0].endPt(); 81 pj = segments[1].endPt() - p0; 84 pj = segments[i + 1].endPt() - p0; 99 const SkPoint& pt = segments[i].endPt(); 142 const SkPoint* prevPt = &sega.endPt(); 388 SkPoint p0 = sega.endPt(); 408 SkPoint v1Pos = sega.endPt(); 443 SkPoint qpts[] = {sega.endPt(), segb.fPts[0], segb.fPts[1]};
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/external/skia/src/gpu/ |
GrDistanceFieldGenFromVector.cpp | 237 const SkPoint& endPt() const { 247 const DPoint p2 = DPoint::Make(this->endPt().x(), this->endPt().y()); 253 fBoundingBox.set(fPts[0], this->endPt());
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/external/skqp/src/gpu/ |
GrDistanceFieldGenFromVector.cpp | 237 const SkPoint& endPt() const { 247 const DPoint p2 = DPoint::Make(this->endPt().x(), this->endPt().y()); 253 fBoundingBox.set(fPts[0], this->endPt());
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/external/skia/src/gpu/ccpr/ |
GrCCFillGeometry.cpp | 118 // Returns whether the (convex) curve segment is monotonic with respect to [endPt - startPt]. 120 const Sk2f& endPt, const Sk2f& tan1) { 121 Sk2f v = endPt - startPt;
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/external/skqp/src/gpu/ccpr/ |
GrCCFillGeometry.cpp | 118 // Returns whether the (convex) curve segment is monotonic with respect to [endPt - startPt]. 120 const Sk2f& endPt, const Sk2f& tan1) { 121 Sk2f v = endPt - startPt;
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